Insulated stapling device

ABSTRACT

An insulated staple is formed by a U-shaped body member and a piece of flexible, plastic tubing bent in a U-shaped configuration and installed on the body member. The plastic tubing is cut along a longitudinal wall portion to form a longitudinally extending opening at the central region of the tubing. The insulated staple is then assembled by inserting the opposed and parallel legs of the body member through the longitudinal opening and out through the axial ends of the tubing so that the body member is lined along its inner periphery between the end portions of the tubing mounted on the opposed and parallel legs. The method for making the insulated staple comprises cutting the longitudinal opening in the tube, bending the tube in a U-shaped configuration and inserting the legs of the body member through the axial ends of the tubing so that the pointed tips are exposed and the inner periphery of the staple is lined between the end portions of the tubing on the parallel legs.

United States Patent [1.91 Colby et al.

1 5 1 1 INSULATED STAPLING DEVICE Assignee:

. Filed:

Inventors: Harold S-. Colby, Bloomfield, Conn.;

Raymond 11. Landry, South, Ashburnham, Mass.

Emhart Corporation, Bloomfield,

Conn.

Feb. 22, 1972 -Appl. No.: 227,842

us. (:1. 174/159 Int. Cl H0111 17/00, F16b 15/00 Field of Search. 174/154, 159, 164; 59/71, 77;

lleierences Cited UNITED STATES PATENTS Blake 17 4/159 174/159 ux Carson Greenwood 174/159 UX Rublee .L 174/159 Stewart 174/159 X FOREIGN PATENTS'OR APPLICATIONS Great Britain 17'4 77 R 51 Jan. 22, 1974 Primary ExaminerLaramie E. Askin Attorney, Agent, or Firm-John C. Linderman [5 7] ABSTRACT An insulated staple is formed by a U-shaped body member and a piece of flexible, plastic tubing bent in a U-shaped configuration and installed on the body member. The plastic tubing is cut along a longitudinal wall portion to form a longitudinally extending opening at the central region of the tubing. The insulated staple is then assembled by inserting the opposed and parallel legs of the body member through the longitudinal opening and out through the axial ends of the tubing so that the body member is lined along its inner periphery between the end portions of the tubing mounted on the opposed and parallel legs. The method for making the insulated staple comprises cutting the longitudinal opening in the tube, bending the tube in a U-shaped configuration and inserting the legs of the body member through the axial ends of the tubing so that the pointed tips are exposed and the inner periphery of the staple is lined between the end portions of the tubing on the parallel legs.

11 Claims, 8 Drawing Figures 1 I INSULATED STAPLING DEVICE CROSS REFERENCES TO RELATED APPLICATIONS This application contains subject matter which is related to the subject'matter in a copending application Ser. No. 227,861 filed Feb. 22, 1972 entitles Apparatus for Installing Insulation on a Staple and having the same assignee.

BACKGROUND OF THE INVENTION The present invention relates to an insulated staple. More particularly, the present invention is related to a staple which has a generally U-shaped configuration and which includes a section of tubing formed from an insulating material and mounted on a body member to provide a staple with insulating characteristics for supporting conduits on walls, beams and similar supporting objects.

U-shaped staples for mounting conduits such as electrical or fluid conduits to other objects are well known in the art as indicated by US. Pat. Nos. 662,587, 2,351,608 and 2,526,902. In a typical .installation where such staples are employed, the elongated conductor is held in place by the component parts of the staple comprising a bridging section interconnecting two generally opposed and parallel legs straddling the conductor. The parallel legs have pointed, free ends which are driven into the supporting object by a hammer or other tool. The bridging section of the U-shaped staple is frequently lined or covered with an insulating material so that the conduit or cable being supported is held in isolated relationship from the staple. In this respect, the use of the terms insulated, insulating or insulation in this specification is intended to encompass electrical, thermal, and vibrational insulating characteristics, all of which can be advantageously employed between mounting staples and a supported conduit.

1n the prior art staples exemplified in the abovereferenced patents, the U-shaped body member is formed from a relatively hard material, most commonly a metal, in order to-withstand the blows of a hammer as the staple is driven into a'supporting base. Since most metals are good electrical and thermal conductors and, by their inherent hardness, tend to transmit'vibratory forces with little attenuation to the supported conduit, it is common to provide insulation about the bridging section and contiguous portions of the parallel legs of the body member by coating or mounting an insulating material on the body member to separate the conduit and body member in the mounted positions. In US. Pat. Nos. 662,587 and 2,351,608 the insulator is formed from a strip of insulating material or less pliable insert and is held to the body member by frictional engagement of the legs. In US Pat. No. 2,526,902, the insulating material is applied to the staple as a closefitting covering preferably applied by a molding operation with a special molding die of suitable construction.

In each of the above-referenced prior art staples, the insulator is specially formed for mounting on the U- shaped body members. While the end products are suitable for their intended purposes, the use of specially constructed insulators contributes to the cost of the product, and installation procedures utilized with such insulators can become relatively sophisticated in view of special molding or forming techniques required to obtain the desired insulator configuration and other difficulties associated with the installation of the insulators on the body members.

It is accordingly the general object of the present invention to disclose a staple which is simple in construction and which can be easily assembled from readily available insulating material having a multitude of other purposes.

1 SUMMARYOF THE INVENTION The present invention resides in a staple. The staple itself is comprised of a U-shaped body member having two opposed and parallel legs which are connected by a bridge section at adjacent leg ends and which are provided with pointed tips at the opposite or free ends for penetration into a supporting object. A section of nonmetallic, flexible tubing bent in a U-shaped configuration is fitted over the U-shaped body member with opposite end portions of the tubing being positioned coaxially on the respective, opposed legs of the body member. The tubing section exposes the pointed ends of the legs and has an intermediate portion extending along the bridge section to line at leastthe inner periphery of the body member between the end portion mounted on opposed legs. The staple is constructed by removing a longitudinal wall portion from a section of flexible tubing and bending the tubing so that the tips of the parallel legs on the body member can be inserted respectively through the opposite axial ends of the tubing. The insulating tubing section and the body member are held together bythe frictional engagement of the tubing section and the parallel legs of the body member. The insulated staple is, therefore, easily formed from materials which are readily available and the installation procedure is relatively simple compared to the special forming operations of the prior art.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. I is a perspective view of the insulated staple of the present invention in one embodiment.

FIG. 2 is a cross sectional view of the insulated staple in FIG. 1 as viewed along the sectioning line 2-2.

FIG. 3 is a side view of the flexible insulating tubing after a longitudinal wall portion is removed.

FIGS. 4a-4e are a series of views showing the steps by which the. flexible insulating tubing is installed on the body member of the staple. 1

DESCRIPTION OF THE PREFERRED EMBODIMENT FIGS. 1 and 2 show one embodiment ofthe insulated staple of the present invention. The staple, generally designated 10, is composed of two basic elements, a U- shaped body member 12 and an insulator which takes the form of anon-metallic, flexible tubing section or sleeve 14 bent in a U-shaped configuration corresponding to the configuration of the body member 12.

The U-shaped body member 12 is a conventional non-insulated staple already known in the prior art and formed from a heavy gauge wire stock of a conductive metal such as a steel alloy. The formation of a U- shaped body member of this type is not new in the art and is well known, one such forming operation and associated apparatus being described in the abovereferenced US. Pat. No. 2,351,608, so that a further description of the metal forming operation is not providedor considered necessary with respect to the present invention. p A

As is shown in FIG. l,-the body member 12 is comprised principally of two opposed and parallel legs 20 and 22, each of which is pointed at the free end 26 or 28 respectively and a bridge section 24 integrally joined with and interconnecting the ends of the legs 20 and 22opposite the pointed ends 26 and 28. It will be noted that the pointed ends 26 and 28 or tips of the legs 20 and 22 have point-forming shear planes facing in opposite transverse directions relative to the plane of the U-shaped body member 12. As a consequence, the free legs and outer ends of the bridge section to be exposed to the driving blows of a hammer that urge the pointed ends 26 and 28 of the legs into a support or base to which aconduit or other object'is to be fastened by the staple 10. With such construction, the driving blows are transmitted directly through the parallel legs to the pointed tips and facilitate anchoring the staple to a support.

the notches 48 is selected to be no less than, and preferably approximately equal to, the length of the bridging section 24 connecting the parallel legs and 22 of the body member 12. Furthermore, the edges 46a, 46b lie in a longitudinally extending plane which is offset from the axis of the tubing 14 toward the side bearing the opening, and the greatest width of the longitudinal opening lies adjacent the longitudinal end edges, the longitudinal edges 46a, 46b being closely spaced. By cutting the longitudinal opening so that the notches 48a, 48b adjacent the longitudinal ends of the opening are separated by an amount equal to the spacing of the legs and so that the notches penetrate approximately to the central plane of the tubing, the width of the opening will be largest at the longitudinal ends of the opening,

. such width being approximately equal to the inside diameter of the tubing. The tubing isthen bent more easily into a U-shaped configuration corresponding to the 42 of the tubing 14 as described in the installation oper- The insulating tubing section 14 is cut to have a longitudinal lengthless than the total length of the two parallel legs 20 and 22 and the bridge section 24 of the body member 12, but greater than the length of the bridge section 24 alone so that when the tubing section is centrally mounted on the body member, the free or projecting ends 26 and 28 of the legs 20 and 22 are fully exposed for penetration into a support and the upper portion of the staple 10 is fully lined along the inner periphery which contacts the supported conduit. Thetubing 14 is formed from a flexible insulating material, preferably a plastic such as polyvinylchloride or polyethylene, and has an internal diameter corresponding approximately to the outside diameter of the heavy gauge wire forming the body member 12 to receive the legs 20 and 22 in close fitting contact. Although the tubing and the body member are illustrated as'having circular'cross sectionsthroughout the drawings, it is readily apparentthat both tubes and body members having rectangular, oval and .othercross sections can be employed. It is desirable, however, that the tubingv and the legs of the staple be held in frictional engagement when the tubing is installed so that the insulator stays fastened to the body member before the staple is mounted in ,a support with a conduit under the bridge section 24.

a As shown by a comparison of FIGS. 1 and 3 the insulating tubing 14 prior to installation on the body member 12 is a straight section of tubing having two axially opposite end portions 40 and 42 whichafter installaations below. The smaller width between the longitudinal edges 46a, 46b allows the intermediate portion 44 of the tubing to partially envelop the central portion or saddle 30 in the body memberas shown most clearly in FlG. 2. By partially enveloping the saddle 30, there is less opportunity for a supportedconduit to contact the metal of the bridging section '24 in installations where, for example, the cable is suspended in festoons or is otherwise bent over the bridge section 24. It is, therefore, advantageousto cut a wall portion from the tubing 14 so that the intermediate portion 44 has a circumferential dimension substantiallygreater than one half of the tube outer circumference and the circumferential dimensions adjacent the ends of the intermediate portion 44 are approximately equal to one half of the circumference. When installed, the tubing 14 provides insulation at the important regions of the body member 12, and the bridging section 24 and connecting ends of the legs 20 and 22 are exposed to the direct blows of tion completely encircle the legs 20 and 22 respectwo notches 48a and 48b. forming longitudinal end.

roll 50 of non-metallic, flexibletubing (shown schematically) isunreeled from a supply spool topresent a generally straight length of tubing Lat the free or unraveled end of the coil. ln FlG. 4b, a longitudinal wall portion 52 is cut from the generallystraight length of tubing to form the longitudinal opening and then the section 14 of tubing is severed'from the coil 50. As shown, the removed wall portion has a greater circumferential dimension adjacent the longitudinal ends than at the midpoint to provide the desired opening for the installation steps which follow. With the wall portion 52 removed, the section of tubing 14 is bent in a generally U-shaped configuration corresponding to a U- shaped body member and with thelongitudinal opening 54 at the outer periphery of the configuration as shown in FIG. 4c. A body member, 12 is presented to the bent tubing 14 with the pointed tips 26 and 28 of the member adjacent the respective longitudinal ends of the opening54. The pointed tips 26 and 28 of the legs 20 and 22 are aligned in a direction slightly outof the plane of the body member and it is preferably in preparation for the insertion of the leg tips through longitudinal opening in the tubing that the section of tubing be held at a slight angle relative to the plane of the body member 12 with the longitudinal axis of the tubing aligned with the pointed tips. In FIG. 4d, the pointed tips 26 and 28 of parallel legs 20 and 22 are inserted respectively into the opposite longitudinal ends of the opening 54 and through the respective axial end portions 40 and 42 of the tube 14 so that the end portions are located coaxially about the respective legs 20 and 22 of the body member and the opening 54 faces away from the pointed ends of the legs. In this respect, the term insert" contemplates movements of the body member 12 and the tubing 14 relative to one another to position the legs 20 and 22 of the body member and the respective ends 40 and 42 of the tubing in coaxial relationship as shown, regardless of which element, the body member 12 or the tubing 14, is moved or held stationary. in FIG. 4e the tube 14 is driven or pressed into a fully seated position on the body member 12 so that the intermediate portion 44 is adjacent the bridging section 24 as also shown in FIGS. 1 and 2. Fully seating the intermediate portion 44 around the bridge section 24 may be carried out when a conduit captured by the staple is forced against the bridge section as the staple is driven into another object. Apparatus for performing the assembling operation as shown is disclosed in the copending application cross referenced above.

It will thus be seen that the insulated staple is formed by adding a section of readily available plastic tubing to a metallic staple body member 12 known in the prior art. After cutting the longitudinal opening the tubing 14 is easily bent into a U-shaped configuration and is slipped onto the parallel legs and 22 of the body member to provide the desired insulation at all important points of the staple without covering the upper portion of the body member which receives the driving blows of a hammer or other device directly. The length of the axial end portions 40 and 42 on the legs affects the depth of penetration of the legs into an object since the forces required to drive the legs further into an'object after the end portions 40 and 42 have engaged the object increase significantly. Therefore, the end portions 40 and 42 afford some protection against crushing a captured conduit during a-stapling operation. Additionally, it is significant that the steps for forming and installing the insulator are simple compared to the more sophisticated forming or molding operations taught in the prior art, and the insulated staples can be produced economically from ordinary plastic tubing or the like.

Although the present invention is described in a preferred embodiment, it will be readily understood that numerous modifications can be had without departing from the spirit of the invention. The body member 12 neednot be an integrally formed element. The bridge section can be changed in shape and the saddle can be eliminated as desired. The particular form of the longitudinal opening can be varied from the form depicted in the drawings as long as the tubing installed on the bodymember provides the desired insulation and remains attached to the body member before and during use. The length of the axial end portions 40 and 42 of the tubing 14 and the length of the legs 20 and 22 of the body member 12 can be varied as desired. Materials other than those listed above can be employed provided that they can be made sufficiently flexible for installation on the body member. Accordingly, the present invention is disclosed in a preferred embodiment b way of illustration rather than limitation.

We claim:

1. A staple for anchoring objects to a base comprising: a generally U-shaped body member having substantially parallel legs, each leg being adapted for penetrating a base and a connecting bridge section joining the legs; and a section of non-metallic flexible tubing bent in a U-shaped configuration and fitted on the U- shaped body member with opposite end portions of the tubing being positioned coaxially on the respective legs of the body member, completely encircling the the portions of the respective legs adjacent the bridge section and exposing the ends thereof, the section of tubing having an intermediate portion connecting the end portions and extending along the bridge section to line a substantial part of the inner periphery of the U-shaped body member.

2. A staple for anchoring as defined in claim 1 wherein the intermediate portion of the section of nonmetallic tubing contains a longitudinally extending opening and the section of tubing is positioned on the body member with the opening exposing the bridge section along the outer periphery of the U-shaped body member. D

3. A staple for anchoring as defined in claim 2 wherein the section of tubing containing the longitudinally extending opening partially envelops the bridge section of the U-shaped body member.

4. A staple for anchoring as defined in claim 1 wherein the intermediate portion of the section of tubing contains an opening extending longitudinally along the bridge section and exposing the outer periphery of the U-shaped body member between the parallel legs.

5. A staple for anchoring. as defined in claim 1 wherein the U-shaped body member is formed by a wire stock having a preselected diameter; and the section of non-metallic tubing has an inside diameter substantially equal to the diameter of the wire stock to permit the section of tubing to be slipped onto the U- shaped body member. 7

6. A staple for anchoring as defined in claim 5 wherein the U-shaped body member is formed by a metallic wire stock; and the section of tubing is formed from an electrically nonconductive plastic.

7. An insulated staple for holding conduits and the like comprising: a metallic body member including two generally parallel legs having pointed tips at free ends of the legs for driving the respective'legs into an anchoring body, and a bridging'section integrally connected to the ends of the legs opposite the free ends and extending between the parallel legs to join the legs and the section in a U-shaped configuration; and a tube formed from an insulating material and extending along the bridging section and ontoeach of the opposite ends of the parallel legs, the wall of the tube having an opening extending longitudinally along the tube a limited distance approximately equal to the length of the bridging section, the tube being positioned on the body member to expose the body member at one side of the bridging section facing away from the pointed tips of the parallel legs.

8. An insulated staple as defined in claim 7 wherein the opening in the tube wall extends axially of the tube along the entire'one side of the bridging section benally extending edges lying in a longitudinal plane of the tube section offset from the tube axis toward the side of the tube section defining the opening.

10. The insulating sleeve as defined in claim 9 wherein the width of the opening between the two longitudinal edges is less than the width of the opening in the vicinity of the boundary edges.

1 1. An insulating sleeve as defined in claim 9 wherein the flexible insulating material is formed from a plastic material. 

1. A staple for anchoring objects to a base comprising: a generally U-shaped body member having substantially parallel legs, each leg being adapted for penetrating a base and a connecting bridge section joining the legs; and a section of nonmetallic flexible tubing bent in a U-shaped configuration and fitted on the U-shaped body member with opposite end portions of the tubing being positioned coaxially on the respective legs of the body member, completely encircling the the portions of the respective legs adjacent the bridge section and exposing the ends thereof, the section of tubing having an intermediate portion connecting the end portions and extending along the bridge section to line a substantial part of the inner periphery of the U-shaped body member.
 2. A stAple for anchoring as defined in claim 1 wherein the intermediate portion of the section of non-metallic tubing contains a longitudinally extending opening and the section of tubing is positioned on the body member with the opening exposing the bridge section along the outer periphery of the U-shaped body member.
 3. A staple for anchoring as defined in claim 2 wherein the section of tubing containing the longitudinally extending opening partially envelops the bridge section of the U-shaped body member.
 4. A staple for anchoring as defined in claim 1 wherein the intermediate portion of the section of tubing contains an opening extending longitudinally along the bridge section and exposing the outer periphery of the U-shaped body member between the parallel legs.
 5. A staple for anchoring as defined in claim 1 wherein the U-shaped body member is formed by a wire stock having a preselected diameter; and the section of non-metallic tubing has an inside diameter substantially equal to the diameter of the wire stock to permit the section of tubing to be slipped onto the U-shaped body member.
 6. A staple for anchoring as defined in claim 5 wherein the U-shaped body member is formed by a metallic wire stock; and the section of tubing is formed from an electrically nonconductive plastic.
 7. An insulated staple for holding conduits and the like comprising: a metallic body member including two generally parallel legs having pointed tips at free ends of the legs for driving the respective legs into an anchoring body, and a bridging section integrally connected to the ends of the legs opposite the free ends and extending between the parallel legs to join the legs and the section in a U-shaped configuration; and a tube formed from an insulating material and extending along the bridging section and onto each of the opposite ends of the parallel legs, the wall of the tube having an opening extending longitudinally along the tube a limited distance approximately equal to the length of the bridging section, the tube being positioned on the body member to expose the body member at one side of the bridging section facing away from the pointed tips of the parallel legs.
 8. An insulated staple as defined in claim 7 wherein the opening in the tube wall extends axially of the tube along the entire one side of the bridging section between the legs and also exposes at least portions of the integral connections between the bridging section and the legs.
 9. An insulating sleeve for use in stapling a conduit in an insulated condition comprising: a tube section formed from a flexible insulating material and having an opening in the wall of the tube section, the opening extending longitudinally of the section along a region of the tube section intermediate the axial ends of the tube section and being defined by two generally longitudinally extending edges intermediate oppositely located longitudinal boundary edges, the two longitudinally extending edges lying in a longitudinal plane of the tube section offset from the tube axis toward the side of the tube section defining the opening.
 10. The insulating sleeve as defined in claim 9 wherein the width of the opening between the two longitudinal edges is less than the width of the opening in the vicinity of the boundary edges.
 11. An insulating sleeve as defined in claim 9 wherein the flexible insulating material is formed from a plastic material. 